Sliding of Water Droplets on Microstructured Hydrophobic Surfaces

Mar 5, 2010 - Sliding behaviors of liquid droplets on solid surfaces are among the fundamental ... Donghyun Seo , Choongyeop Lee , and Youngsuk Nam...
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Sliding of Water Droplets on Microstructured Hydrophobic Surfaces Cunjing Lv,† Changwei Yang,† Pengfei Hao,*,† Feng He,† and Quanshui Zheng*,†,‡ †

Department of Engineering Mechanics, Tsinghua University, Beijing 100084, China, and ‡Department of Mechanical and Aerospace Engineering, Monash University, VIC 3800, Australia Received November 24, 2009. Revised Manuscript Received February 22, 2010

Sliding behaviors of liquid droplets on solid surfaces are among the fundamental results of wettability. To remedy the lack of quantitative correlation between sliding angle and roughness of the surface, which is known to be effective at enhancing wettability, we report in this paper the observation that the onset of water droplets sliding under gravity on inclined micropillar-structured hydrophobic surfaces always starts with detachment of the rear contact lines of the droplets from the pillar tops. We also establish an explicit analytical model, based on the observed mechanism, by which the sliding angle is fully determined by the fraction of water-solid interface area, droplet volume, and Young’s contact angle. This model gives predictions of sliding angles that agree well with experimental measurements.

Introduction Superhydrophobicity, typically an effect enhanced by surface roughness on hydrophobic surfaces, has recently attracted great attention because of the easy fabrication of microstructured surfaces1-5 with superhydrophobicity and their various applications, such as self-cleaning materials, water collecting means, and friction drag reduction surfaces.6-11 Superhydrophobicity is characterized by not only a very large static contact angle φ (>150), but also a very small sliding angle R (